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Composition pulling effect

C2.1 GalnN quantum wells composition pulling effect C2.2 GalnN quantum wells microstructure C2.3 GalnN quantum wells optical properties C2.4 GalnN quantum wells effect of phase separation on lasing... [Pg.508]

C2.1 GalnN quantum wells composition pulling effect... [Pg.509]

In view of the fact that the above techniques examine single fibers embedded in a matrix block, application of the experimental measurements to practical fiber composites may be limited to those with small fiber volume fractions where any effects of interactions between neighboring fibers can be completely neglected. To relate the interface properties with the gross performance of real composites, the effects of the fiber volume fraction have to be taken into account. To accommodate this important issue, a modified version of the fiber pull-out test, the so-called microbundle pull-out test, has been developed recently by Schwartz and coworkers (Qui and Schwartz, 1991, 1993 Stumpf and Schwartz, 1993 Sastry et al., 1993). In... [Pg.55]

Yun and Lee (2004) investigated pultrusion of phenolic foam composites. The effect of process variables on the foaming characteristics of phenolic resin during pultrusion was studied experimentally with the consideration of variables such as the heating temperature, the pulling speed and the mass fraction of the blowing agent. [Pg.402]

Various other soft materials without the layer—lattice stmcture are used as soHd lubricants (58), eg, basic white lead or lead carbonate [598-63-0] used in thread compounds, lime [1305-78-8] as a carrier in wire drawing, talc [14807-96-6] and bentonite [1302-78-9] as fillers for grease for cable pulling, and zinc oxide [1314-13-2] in high load capacity greases. Graphite fluoride is effective as a thin-film lubricant up to 400°C and is especially useful with a suitable binder such as polyimide varnish (59). Boric acid has been shown to have promise as a self-replenishing soHd composite (60). [Pg.250]

Mangipudi et al. [63,88] reported some initial measurements of adhesion strength between semicrystalline PE surfaces. These measurements were done using the SFA as a function of contact time. Interestingly, these data (see Fig. 22) show that the normalized pull-off energy, a measure of intrinsic adhesion strength is increased with time of contact. They suggested the amorphous domains in PE could interdiffuse across the interface and thereby increase the adhesion of the interface. Falsafi et al. [37] also used the JKR technique to study the effect of composition on the adhesion of elastomeric acrylic pressure-sensitive adhesives. The model PSA they used was a crosslinked network of random copolymers of acrylates and acrylic acid, with an acrylic acid content between 2 and 10%. [Pg.131]

Changes observed in the composition of the rubber/brass interphase correlated well with results of adhesion tests carried out on brass-plated steel wires embedded in blocks of rubber [46]. The force required to pull the wires out of the blocks decreased steadily as vulcanization temperature increased. This effect was especially pronounced when the specimens were aged at elevated temperature and humidity for several days before the wires were pulled out of the rubber blocks. [Pg.295]

It should be emphasized that the nature of all presented protocols is very general and, thus, their application for a comprehensive characterization of your favorite multiprotein complex (YFMPC) in yeast might require only minor modifications. The logical sequence of all required steps is schematically shown in Fig. 2.1. The initial large-scale Ni affinity isolation of eIF3 followed by mass spectrometry (MS) of its subunit composition has already been described (Asano et al, 2002), and methods for identification of protein-protein interactions such as yeast two-hybrid (Y2H) and in vitro glutathione-S-transferase (GST) pull-down analysis are presented in volume 429. This chapter focuses on a description of the small-scale one-step in vivo affinity purification techniques that were used to determine the effects of deletions and... [Pg.54]

The results presented in Section 4.3.6 suggest that the shear lag models based on a single fiber composite is inadequate for modelling a composite with a high fiber f). From the experimental viewpoint, to measure the relevant fiber-matrix interface properties, the fiber volume fraction in single fiber pull-out tests is always very low (i.e. Ff <0.01). This effectively means that testing with these specimens has the... [Pg.149]

Kim, J,K., Zhou, L.M, Bryan, S.J. and Mai, Y.W. (1994b), Effect of fiber volume fraction on interfacial debonding and fiber pull-out. Composites 25, 470-475. [Pg.166]

Sigl, L.S. and Evans, A.G. (1989). Effects of residual stress and frictional sliding on cracking and pull-out in brittle matrix composites. Mech. Mater. 8, 1-12. [Pg.168]

Takaku, A. and Arridge, R.G.C. (1973). The effect of interfacial radial and shear stress on fiber pull-out in composite materials. J. Phys. D Appl. Phys. 6, 2038-2047. [Pg.168]

Effect of surface modification on pull-out force of PPTA silicone rubber composite ... [Pg.201]

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See also in sourсe #XX -- [ Pg.509 , Pg.516 ]



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Compositional effect

GalnN Quantum Wells Composition Pulling Effect

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